TH2009A - Bipolar monopolar thin cell membranes And / or mixed - Google Patents

Abstract

Low press, high surface area for use with positive electrode plates And the negative electrode plate of the electrode set The invention is also directed towards the contact side, which has a low pressure, has a high surface area for the connection of the diffuser and the back plate. The filter press electrolysis cell has been disclosed. Monopolar, bipolar and mixed formulations for separation processes With electric current using a new method of bringing electric energy into and out of the cell, the invention is directed towards the energetic side.

Claims (8)

1. A filler press electrolytic separator consisting of a closed wall. At least one cell electrolysis that There is a set of positive electrode and cathode electrode set and an ion exchange membrane that can be flexibly fixed between the two sets. And the back is a conductive material, which is At least part of the electrolyte room. The cell includes a seal and a transmission-and-release section of fluid and electric power where (a) the said back of the electrode assembly is made up of parts. The same as the tray is where objects that conduct electricity. Each of the above trays It also incorporates an outer seal and a conductive manifold which is connected as one piece. Which will serve as (B) Such electrical energy is passed between the Two adjacent sheets of the cell tray. And between the sheets The back of the terminal cell and the wall is closed through the connected current distribution. A mechanical contact, including only a low-pressure connector, is at least as large as the size of the electrode's active area. And was separated from the elek The cell trolight is provided by the back of the tray and is located outside adjacent cells and (c) at least some of the above electrode kits, including extruded parts. Spring, which extends between the back and the active area 2. Electrode separator as in claim 1, where such low-pressure coupling, mechanical contact contact Between the adjacent backs of adjacent cells and will be Maintain pressure between 0.035 and 7.03 kg / cm2. 3. Electrolysis separator as in claim 1, where the aforementioned electrode tray includes a part which makes it hard. This is done by inserting the poured and solid material, or the filling material, or both 4. Electrolysis separator as in claim 1, where the electrical contacts connect the negative back plate to the positive back plate 5. The electrolytic separator, as in claim 1, where the current diffuser is in the form of a solid, flat sheet of metal made of nickel, iron, steel, aluminum, copper or alloys of these metals. The electrolytic separator is described in claim 1, where the diffuser provides a structural support for 7. Electrolysis separator as in claim 1, where the diffuser is a solid, flat sheet of metal with a conductive coating on its side, which is in contact with the back. 8. The electrolysis separator as in claim 1, where the distribution part is a flat sheet covered with metal 9. The electrolysis separator as in claim 1, where the distribution current is It is a pressure metal plate that is flat and assembled. With interface material selected from conductive mesh material, porous metal, conductive fiber. And conductive metal sheets and their mixtures By touching the diffuse part Such currents and the back. 1 0. Electrolysis separator as in claim 1, where the aforementioned electrode set Including the compression spring is a set of terminals Plus, which consists of a metal back plate and a substrate electrode. Metal electrode, valve with electro-catalytic coating 1 1. Electrolytic separator as in claim 1, where the electrode set, including the spring compression, is the negative electrode set. Which consists of the back plate and the negative surface which is made of nickel, ferrous metal Or nickel alloys or ferrous metals 1. 2. Electrolysis separator, as in claim 1, where the diffuser will carry current to or from the electrode. Traps from external sources. Or from another part of the electrolysis separator through External path 1 3. Electrolysis separator as in claim 12, where it consists of monopolar cell electrolytes like At least one cell and consisted of In addition to the scatter section The current between the back plates of the electrode that are close together. That have the same polarity and also have a current distribution part that is provided at On the mechanical contact between the closed walls of the current separator Electricity and the back of the final cell 1 4. Electrolytic separator as in claim 12, where it consists of bi-type filter press electrolyte cells. Polar at least two cells Where the distribution of the current will It is between the back plate of the positive and negative cell bipolar. Adjacent 1 5. Electrolytic separator as in claim 1, where it consists of the following, brings together a monopolar cell. 1 6. Electrolysis separator as described in claim 1 where the one-piece manifold has a separator, seal, manifold seal, and bipolar. And manifold cross section 1. 7. Anode set is adapted for use in flow separators. Electric filter press Containing at least one electrolyte cell, where the anode set of conductive material consists of at least part of the back of the electrolyte. Anolite Room The back is the same piece as the tray. With a homogeneous manifold consisting of an output and input pipe and a peripheral seal. Active area of the anode The elastic spring compression part extends between the back and the anode's active area within the anolite chamber. 1 8. Anode set as in claim 17, where the back is Said of the positive pole is a metal back. While the area of effect Of the anode contains a metal substrate, a valve containing Enamel that is a catalyst electrode is coated in 1. 9. Anode set as in claim 17, where the Electro set tray. Such watering includes parts that are hardened by inserting the poured material. And then solidified or containment material, or both. 2 0. Negative electrode adapted for use in a current separator. Electric filter press With at least one cell electrolyte where the negative electrode is a conductive material The electricity has a back plate that is at least part of the catholite room. The back is the same as the tray with the manifold. It is a single piece consisting of an outlet and inlet pipe and an outer seal, an active cathode area. And the elastic spring compression that extends between the back and the effect of The cathode is inside the aforementioned catalytic chamber. 2 1. The cathode set as in claim 20, where the active area Of the negative electrode consists of a negative surface which is selected from A group consisting of a nickle mesh Nickle perforated and perforated metal, type 2 iron 2. Negative electrode set as in claim 20, where the electrode set tray Including the hardening part By inserting the poured material to harden The filling material, or both 2. 3. A filter press electrolytic separator, consisting of at least one closed-cell electrolytic separator. Cells with anode electrode and cathode electrode set and ion exchange thin membranes, which are flexibly fixed. Between the two sets The electrode set has an active area. Of the electrode And the back sheet which is a conductive material This will be at least part of the cell electrolyte chamber, including the seal. And parts for the import and export of fluid and electric power, where (a) the back of the electrode assembly is made of conductive material (b) that electric energy is passed between the are Close to each other and between the back of the apex cell and the wall covering Through a low-pressure mechanical contact connection, such contact is at least the size of the active area of the electrode and is separated from the electrode. Cell phone light by the back of the tray and will be under Outside adjacent cells, and (c) at least some of the said electrode units include extruders. Spring, which extends between the back and the active area Of the electrode and where (d) such a current diffusion passes through the side of the cell. They are adjacent on at least one side and thus have a supporting frame. Make a cell for the cell. 2 4. Electrode separator, as in claim 23, where the electrode set is made in one piece with the tray. Is a conductive material And each of these trays has an outer seal and also incorporates a single manifold that is It is a conductive part for fluid import and export. 2 5. Electrolysis separator as in claim 24, where the aforementioned electrode tray includes the hardening part 2. 6. Electrolysis separator as in Clause 24, where the single-piece manifold has a separator, seal, pipe seal, or both. Joint and manifold section 2 7. Electrolysis separator, as in claim 23, where the electrical contacts will connect the negative back plate to the Positive polarity 2 8. Electrolysis separator, as in claim 23, where the low-pressure connection of the cellular mechanical contacts The adjacent ones are maintained at a pressure between 0.035 and 7.03 kg / cm2. 9. Electrolytic separator, as in claim 23, where the distribution section conducts electricity. Yet or come from Electrodes from sources outside the electrolytic separator or from another part of the electrolytic separator. Through an external path 3 0. Electrolysis separator as in claim 29, where it contains at least one monopolar cell 3. 1. The electrolytic separator, as in claim 29, contains cell-electrolytes with a bi-type filter press. At least two polar cells where the current diffuse is between The back plate of the adjacent cell bipolar positive and negative terminals 3 2. Electrolysis separator, as in claim 23, where the current diffuser is in the form of a solid flat sheet of nickel, iron, steel, aluminum, copper or alloys of it. 3. Electrolysis separator, as in claim 23, where the diffuser is a solid, flat sheet of metal containing The coating is a conductive material on the side in contact with the back plate 3. 4. Electrolysis separator, as in claim 23, where the diffuser is a flat sheet covered with metal 3. 5. Electrolysis separator, as in claim 23, where the diffuser is a solid, flat sheet of metal, which It consists of interface material selected from conductive mesh, porous metal, conductive fiber, conductive metal plate. And a mix of these In contact with such flat solid metal plate and the back 3 6. Electrolytic separator, as in claim 23, where the electrode assembly, including the spring compression, is a terminal block. Plus Metal back plate and metal electrode substrate Containing 3 electro-catalytic coatings 7. Electrolytic separator, as in claim 23, where the electrode assembly, including the negative spring compressor, is Which consists of a back and a negative surface made of nickle Ferrous metal Or nickel or iron 3 alloys 8. The electrolytic separator, as in claim 23, consists of the following, a monopolar and bipolar cell, arranged between the walls (claim 38). Verses, 7 pages, 14 photos)